<!DOCTYPE html>
<!-- saved from url=(0062)https://www.tboxn.com/wp-content/themes/onenav/fx/io-fx15.html -->
<html><head><meta http-equiv="Content-Type" content="text/html; charset=UTF-8">
	
	<meta name="robots" content="noindex">
	<title>io-fx15</title>
	<meta name="author" content="iowen.cn">
    <style>
        canvas {
        position: absolute;
        top: 0;
        left: 0;
        width: 100%;
        height: 100%;
        }
    </style>
</head>
<body>
    <div></div>
    <script>  /**
        *3D海洋效应与 Canvas2D
        * 您可以更改注释 "效果属性" 下的属性
        */
        
        // Init Context
        let c = document.createElement('canvas').getContext('2d')
        let postctx = document.body.appendChild(document.createElement('canvas')).getContext('2d')
        let canvas = c.canvas
        let vertices = []
        
        // Effect Properties
        let vertexCount = 7000
        let vertexSize = 3
        let oceanWidth = 204
        let oceanHeight = -80
        let gridSize = 32;
        let waveSize = 16;
        let perspective = 100;
        
        // Common variables
        let depth = (vertexCount / oceanWidth * gridSize)
        let frame = 0
        let { sin, cos, tan, PI } = Math
        
        // Render loop
        let loop = () => {
            let rad = sin(frame / 100) * PI / 20
            let rad2 = sin(frame / 50) * PI / 10
            frame++
            if (postctx.canvas.width !== postctx.canvas.offsetWidth || postctx.canvas.height !== postctx.canvas.offsetHeight) { 
                postctx.canvas.width = canvas.width = postctx.canvas.offsetWidth
                postctx.canvas.height = canvas.height = postctx.canvas.offsetHeight
            }
        

            c.fillStyle = `hsl(200deg, 100%, 2%)`
            c.fillRect(0, 0, canvas.width, canvas.height)
            c.save()
            c.translate(canvas.width / 2, canvas.height / 2)

            c.beginPath()
            vertices.forEach((vertex, i) => {
                let ni = i + oceanWidth
                let x = vertex[0] - frame % (gridSize * 2)
                let z = vertex[2] - frame * 2 % gridSize + (i % 2 === 0 ? gridSize / 2 : 0)
                let wave = (cos(frame / 45 + x / 50) - sin(frame / 20 + z / 50) + sin(frame / 30 + z*x / 10000))
                let y = vertex[1] + wave * waveSize
                let a = Math.max(0, 1 - (Math.sqrt(x ** 2 + z ** 2)) / depth)
                let tx, ty, tz
            
                y -= oceanHeight
            
                // Transformation variables
                tx = x
                ty = y
                tz = z
            
                // Rotation Y
                tx = x * cos(rad) + z * sin(rad)
                tz = -x * sin(rad) + z * cos(rad)
                
                x = tx
                y = ty
                z = tz
                
                // Rotation Z
                tx = x * cos(rad) - y * sin(rad)
                ty = x * sin(rad) + y * cos(rad) 
                
                x = tx;
                y = ty;
                z = tz;
                
                // Rotation X
                
                ty = y * cos(rad2) - z * sin(rad2)
                tz = y * sin(rad2) + z * cos(rad2)
                
                x = tx;
                y = ty;
                z = tz;
                
                x /= z / perspective
                y /= z / perspective
                
                

                if (a < 0.01) return
                if (z < 0) return
                
                
                c.globalAlpha = a
                c.fillStyle = `hsl(${180 + wave * 20}deg, 100%, 50%)`
                c.fillRect(x - a * vertexSize / 2, y - a * vertexSize / 2, a * vertexSize, a * vertexSize)
                c.globalAlpha = 1
            })
            c.restore()

            // Post-processing
            postctx.drawImage(canvas, 0, 0)

            postctx.globalCompositeOperation = "screen"
            postctx.filter = 'blur(16px)'
            postctx.drawImage(canvas, 0, 0)
            postctx.filter = 'blur(0)'
            postctx.globalCompositeOperation = "source-over"

            requestAnimationFrame(loop)
        }

        // Generating dots
        for (let i = 0; i < vertexCount; i++) {
            let x = i % oceanWidth
            let y = 0
            let z = i / oceanWidth >> 0
            let offset = oceanWidth / 2
            vertices.push([(-offset + x) * gridSize, y * gridSize, z * gridSize])
        }

        loop()
    </script><canvas width="1912" height="924"></canvas>

</body></html>